MHZ

MHC Axial Ported (with M5 Port) [M] MHT (mm) Auto switch mounting groove (4 locations) (Except 10) A B D2 E D1 Model MHY M5 x 0.8 Piping port S C S C S C S C 0.016 0.043 MHZ2-10 M 12f8 15 11 52.8 7 MHW MHZ2-16 M 0.016 0.043 16f8 20 15 58.7 10 End boss assembly MHZ2-20 M 0.020 0.053 20f8 22 19 70.5 12 MRHQ D2 0.020 0.053 MHZ2-25 M 25f8 25 24 82.9 15 Misc.

MHZ

MHC Axial Ported (with M5 Port) [M] MHT (mm) Auto switch mounting groove (4 locations) (Except 10) A B D2 E D1 Model MHY M5 x 0.8 Piping port S C S C S C S C 0.016 0.043 MHZ2-10 M 12f8 15 11 52.8 7 MHW MHZ2-16 M 0.016 0.043 16f8 20 15 58.7 10 End boss assembly MHZ2-20 M 0.020 0.053 20f8 22 19 70.5 12 MRHQ D2 0.020 0.053 MHZ2-25 M 25f8 25 24 82.9 15 Misc.

MLGP

CNS CLS CLQ MLGP RLQ MLU Selection Conditions/Table (1) ML1C DVertical Upward facing Downward facing Horizontal -X l1 = Eccentric distance 20l2 = Distance between the plate and load center of gravity m Data Mounting orientation m m l1 = Eccentric distance Maximum load speed V 201 to 400 mm/s 50 to 200 mm/s 50 to 200 mm/s 201 to 400 mm/s 50 to 200 mm/s 201 to 400 mm/s Graph (Slide bearing

MLGP

CNS CLS CLQ MLGP RLQ MLU Selection Conditions/Table (1) ML1C DVertical Upward facing Downward facing Horizontal -X l1 = Eccentric distance 20l2 = Distance between the plate and load center of gravity m Data Mounting orientation m m l1 = Eccentric distance Maximum load speed V 201 to 400 mm/s 50 to 200 mm/s 50 to 200 mm/s 201 to 400 mm/s 50 to 200 mm/s 201 to 400 mm/s Graph (Slide bearing

F

E R I E S (N)AS1000-4000 S Y M B O L S NAS 3 000 A R E A C O D E Japan, Asia, Australia, UK N Canada, USA P O R T T H R E A D P A N E L M O U N T V E R S I O N R(PT) N NPT B O D Y S I Z E P O R T S I Z E 1 M3, M5 2 1/8, 1/4 Standard 3 3/8 Standard 4 1/2 Standard M3 M3x0.5 M5 M5x0.8 01 1/8 (10-32Nom) 02 1/4 03 3/8 04 1/2 T E C H N I C A L SPECIFICATIONS D I M E N S I O N S S E R I E S (N)AS4000

180
Angular Style Air Gripper Series MHY2/MHW2 Cam Style Rack & Pinion Style 1

Operating time (s/90) Operating time (s/90) MHY2-25D MHW2-40D 20 200 Moment of inertia (x 10-4 kgm2) Moment of inertia (x 10-4 kgm2) 15 150 10 100 5 50 0 0 0.2 0.4 0.6 0.8 1.0 0.2 0.4 0.6 0.8 1.0 Operating time (s/90) Operating time (s/90) 12-10-7 7 180 Angular Style Air Gripper Cam Style Series MHY2 Size: 10, 16, 20, 25 How to Order MHY 2 16 2 D F9BW S Number of fingers Number of auto switches

180
Angular Style Air Gripper Series MHY2/MHW2 Cam Style Rack & Pinion Style 1

0.2 0.4 0.5 0.3 0.6 Operating time (s/90) Operating time (s/90) MHY2-25D MHW2-40D 20 200 Moment of inertia (x 10-4 kgm2) Moment of inertia (x 10-4 kgm2) 15 150 10 100 5 50 0 0 0.2 0.4 0.6 0.8 1.0 0.2 0.4 0.6 0.8 1.0 Operating time (s/90) Operating time (s/90) 12-10-7 7 180 Angular Style Air Gripper Cam Style Series MHY2 Size: 10, 16, 20, 25 How to Order MHY 2 16 2 D F9BW S Number of fingers

Electric Actuator with Integrated Guide

Tact time Moving distance: _mm t = Tact time: _s s = Cycle time: _s Time t s z x Example) Projection distance x: _mm y: _mm z: _mm Work piece moment y Environment General, Clean room, Mist environment, Dusty environment 94 98 Series LTF Safety Instructions These safety instructions are intended to prevent a hazardous situation and/or equipment damage.

CG5-S

nut SUS304 Rod end nut SUS304 Label protector PET CJ5SR CJ5SV NBR 8 Water resistant scraper FKM 3 Stainless Steel Cylinder Series CJ5-S Dimensions R V Basic type (B)/CJ5BS NDn8 GA GB Piping port 2-M5 x 0.8 Piping port M5 x 0.8 MM NN CA CB D F NA NB A With head cover port in axial position (R) BA BB H S + Stroke Z + Stroke (mm) Bore size (mm) A BA BB CA CB D F GA GB H MM NN NA NB NDn8 S Z

MU

Double rod type Nil S n 2 pcs. 1 pc. n pcs.

MU

M CQS J79W S B 25 10 S M MDU With auto switch CQM CQ2 Built-in magnet Number of auto switches Mounting style RQ Nil S n 2 pcs. 1 pc. n pcs.

Microspeed Cylinder

Z (Example) A80CZ 3m .

Precision Air Slide Table Series MXP ø6, ø10, ø12, ø16

2-M2 x 0.4 depth 3 For magnet mounting 4.7 2.5 6-M3 x 0.5 depth 4 15 15 L (mm) N MXP10-10 MXP10-20 SMXP10#1 (#1 + #3) SMXP10#2 (#2 + #4) L K J V H S Z G M W Model 20 20 52.4 44 32 10 60 8 21 6.5 40 MXP10-10 36 36 82.4 74 50 20 90 20 39 7.5 65 MXP10-20 9 Precision Air Slide Table Series MXP Dimensions MXP10/With Shock Absorber Z 3 2-M3 x 0.5 depth 5 V K 5 N M Stroke: S Max. 19 MXP10-10B

CJ2X/CUX/CQSX/CQ2X/CM2X

(1 mm/s for 16 or smaller) is achieved.

CJ2X/CUX/CQSX/CQ2X/CM2X

(1 mm/s for 16 or smaller) is achieved.

MNB

Maximum piston speed: 1000 mm/s It can be used at 50 to 1000 mm/s provided that it is within the allowable kinetic energy range.

MNB

Forward ON ON OFF Backward Locked stop OFF OFF OFF Regulator with check valve 0.5 s or more Unlocked ON OFF OFF 0 to 0.5 s 3 port normally closed Forward ON ON OFF Pressure center Backward ON OFF ON Locked stop OFF OFF OFF SOL.A SOL.C SOL.B 0.5 s or more Unlocked ON OFF OFF 0 to 0.5 s Backward ON OFF ON 2) [Vertical] [Load in the direction of rod extension] [Load in the direction of rod retraction

CLK1

Ht BY IA 43 25 40 Max.Wc 36 35 13 D 30 Width across flats K Ws Width across flats 44 Clevis width CLK1A: 16.5 R15 0.050 0.093 +0.027 0 Shaft: 12d9 Hole: 12H8 F +0.3 0 +0.4 0 CLK1B: 19.5 Z + Stroke S + Stroke 1.5 27 2 40 57 97 ZZ + Stroke Approx.

ZSE F/ISE

I SE3 Fluid that will not corrode stainless steel 630 and 304 12 to 24 VDC, Ripple (p-p) 10% or less 55 mA or less (With no load) NPN or PNP 2 output (Max. applied voltage 30 V (NPN), Max. load current 80 mA) Fluid Power supply voltage Current consumption Switch output Repeatability PS Z I SE1 2 0.2% F .S. 1 digit or less 0.3% F .S. 1 digit or less Courtesy of Steven Engineering, Inc.-230

Electric Actuator High Rigidity and High Precision Slider Type Circular arc grooves allow for high rigidity and high precision. Moment resistance*1 *2 61% Improved by up to Table displacement*1 50% Reduced by up to With internal battery-less absolute e

L Speed: V [mm/s] a1 a2 T1 = V/a1 = 300/3000 = 0.1 [s], T3 = V/a2 = 300/3000 = 0.1 [s] Time T = T1 + T2 + T3 + T4 [s] [s] L 0.5 V (T1 + T3) V T1: Acceleration time and T3: Deceleration time can be found by the following equation.